Title :
Measurement uncertainty of piezoresistive beam-type humidity sensors
Author :
Hoa, Phan L P ; Suchaneck, G. ; Gerlach, G.
Author_Institution :
Inst. for Solid State Electron., Dresden Univ. of Technol., Germany
Abstract :
In this work, the reliability and accuracy of a sensor design which exploits the volumetric changes of polymeric films due to the uptake of water vapor for humidity measurement is investigated. In this case, the humidity sensing element is a thin polymer film deposited and bonded to the surface of four cantilever beams that are bulk micromachined from the surrounding silicon substrate. For this purpose, the performance of sensors as a function of climatic conditions was experimentally studied. The main results showed a good repeatability of all sensors, positive temperature coefficients of offset voltage, and negative temperature coefficients of humidity sensitivity. The reliability and stability of the beam-type sensor design is compared with bimorph humidity sensors which use the similar piezoresistive readout.
Keywords :
humidity sensors; measurement uncertainty; piezoresistive devices; polymer films; reliability; stability; bimorph humidity sensors; bulk micromachining; cantilever beams; humidity measurement; humidity sensitivity; humidity sensor; measurement uncertainty; negative temperature coefficients; piezoresistive beam-type sensor; piezoresistive readout; positive temperature coefficients; reliability; sensor design; sensor reliability; sensor stability; thin polymer film; Bonding; Humidity measurement; Measurement uncertainty; Piezoresistance; Polymer films; Silicon; Structural beams; Substrates; Temperature sensors; Voltage;
Conference_Titel :
Electronics Technology: Integrated Management of Electronic Materials Production, 2003. 26th International Spring Seminar on
Print_ISBN :
0-7803-8002-9
DOI :
10.1109/ISSE.2003.1260562
